Cell Stages
In our experimental work on the cell, I have graded the
cell types with a crude numerical system, ie. stage 1, stage 2 and so
on. Let me refresh you in case you have forgotten or are a new player:
Stage 1. A normal electrolysis
cell doing what it does best, conventional electrolysis with the
production of hydrogen, oxygen and heat. This production of gasses
follows the well known Faraday rules, namely more current , more gas.
Absolutely useless for what we are working on, and only of any use to
people that still think that they can obtain more power from the
resultant conversion of water to gas, than what the power requirement is
to achieve the separation. I wish you luck, you will need it.
Stage 2. The ' seeding ' of the
cell with the new energy. At this stage the cell is attempting to
initialise the conversion process, but due to faulty materials or
construction defects or water type, etc., etc., the cell will not '
catch ' or enter its free running or breeding mode in the production of
the energy. This can be equated to trying to push a child on a swing and
pushing the swing out of synchronism ( or with insufficient force ) with
the desired pendulum effect.
Stage 3. The ' breeding ' stage
of the cell. The ' seeding ' attempt was successful ( the swing is
swinging ) and the cell is now accumulating and producing the desired
energy. The output of the cell is greater than the combined design ( or
otherwise ) losses, and the cell is useable although very temperamental
and thus unreliable and not practical for commercial use. At this stage,
the cell is a ' laboratory queen ' and is only suitable for proof of
concept type work, as well as the unreliable production of '
anti-gravity ' and transmutation effects ( to mention a couple ). This
stage 3 cell would suffice for the stationary running of a water cooled
power plant for example.
Stage 4. The cell ( as well as
breeding ) is now a reliable and commercially viable product. It is not
affected by power lines and similar low level electromagnetic
disturbances and is also far more immune to " Y "factors and
similar external fields.
The most important characteristic is that the cell is not location
specific. Of course, this attribute is exactly what you need from a
reliable car.
This stage of cell operation is still heavily guarded by the very few
people that ' know ' the secrets of positive and negative potential
utilisation and frequency resonance in association with the cell design.
If you stop and think and consider the staggering implication of the
mass release of this energy to all and sundry, you may then realise why
the game became dirty and free energy does cost money!
Please do not be surprised if these individuals do not knock on your
door, and spoon feed you the details.
Stage 5. This is really not a
cell as such. It is the conversion of the engine, the water therein and
the electrical system of the car, with the aim of achieving a cell type
effect out of the engine itself. Of course this is also the obvious and
logical conclusion for the experimenter that wanted to run his car on a
cell.
To the best of my knowledge, you must have a water cooled engine to
achieve this
' enveloping ' engine field and thus it is not suitable for air cooled
motors.
As you can easily deduct, if people are secretive with a Stage 4 cell, I
don't have to tell you how they guard a Stage 5 unit. However, if you
know how to go Stage 5, they will knock on your door for other reasons.
<g>
There are many other types of specialised cells that are not relevant to
this simple coverage but, I am simply making you aware that Stage 5 is
not the end of the ball game by a long shot.
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The Experimenter's Guide to the Joe Cell